JP2015125346A - Display device, control device, and control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a time taken in a process executed when the type of video signal is changed to be shortened.SOLUTION: When the type of video signal is changed, in the case of a picture quality priority mode, a control unit 10 of a projector controls a first adjustment unit 133, a video effect unit 134, a filter unit 135, and a second adjustment unit 136 and third adjustment unit 137, and sets brightness, contrast, aspect ratio, keystone correction, hue, color thickness, color temperature, etc. of the video to those suitable for the video signal after the change. When the type of video signal is changed, in the case of a speed priority mode, the control unit 10 controls only the second adjustment unit 136, and sets the aspect ratio and keystone correction to those suitable for the video signal after the change, and does not change settings of the brightness, contrast, hue, color thickness, color temperature, etc. of the video.

Description

  The present invention relates to a technique for performing video processing according to a video signal.

  For example, there is a projector disclosed in Japanese Patent Application Laid-Open No. 2004-228620 as an invention that makes a device setting for displaying video suitable for a video signal and shortens the time required to switch video when the video signal is switched. This projector specifies the type of an input video signal for each of a plurality of input terminals. Further, the projector stores an identifier indicating the identified video signal in association with the input terminal, and assigns data suitable for the type of the identified video signal to each device. When an operation for switching the input terminal is performed, the projector identifies the type of the video signal based on the identifier stored in association with the input terminal after the switching, and supplies data suitable for the identified type to each device. Give. According to the projector of Patent Document 1, when an operation for switching the input terminal is performed, the type of the input video signal is not specified, and data suitable for the video signal is set to each device based on the stored identifier. Therefore, the time for switching the video is shortened by not specifying the type of the video signal.

JP 2003-195415 A

  By the way, in an apparatus for displaying video, if there are many functions related to video such as image quality and aspect ratio, a large number of settings are performed accordingly, and data used in the setting also increases. When setting each item, the microcomputer sends data to the devices related to various functions via the bus and controls the device. However, if the number of data is large, it takes time to complete the data setting. Even if the type of the video signal is specified by the technique of Document 1, the time required for switching the video becomes long.

  The present invention has been made in view of the above-described circumstances, and one of its purposes is to provide a technique capable of shortening the time required for processing performed when the type of a video signal changes.

In order to achieve the above object, a display device according to the present invention is configured to set a plurality of video processing functions and a predetermined video processing function among the plurality of video processing functions corresponding to the type of video signal to be displayed. Selection means for selecting one of the first mode for performing the setting and the second mode for performing the setting corresponding to the type of the video signal to be displayed with respect to more video processing functions than the first mode among the plurality of video processing functions When the type of the video signal to be displayed changes, when the first mode is selected, the predetermined video processing function is set, and when the second mode is selected. And setting means for setting a larger number of video processing functions than the first mode among the plurality of video processing functions.
According to the present invention, when the first mode is selected, the number to be set for a plurality of video processing functions is reduced, so that the time taken for processing performed when the type of video signal changes can be shortened. it can.

In the present invention, the setting unit may set at least an aspect ratio of a video to be displayed when the first mode is selected.
According to this configuration, the displayed video is in accordance with the type of the video signal, so that the video having an aspect ratio suitable for the video signal can be viewed.

Further, in the present invention, when the power of the device is turned on, the selection means selects the first mode, and when the operation for selecting the second mode is performed, selects the second mode. The setting means may be configured to set more video processing functions than in the first mode.
According to this configuration, when the power is turned on, the number of settings for a plurality of video processing functions is reduced, so that the time until video is displayed can be shortened.

In the present invention, the video processing function set by the setting means when the first mode is selected may be a video processing function designated by an operator of the own apparatus.
According to this configuration, the time until the video is displayed can be changed according to the operator's designation.

Further, in the present invention, when the setting means is not set in the first mode and the setting is changed by the operator of the own apparatus for the video processing function set in the second mode, the selection means The second mode may be selected, and the setting unit may set more video processing functions than in the first mode.
According to this configuration, when the video processing function is set by the operator, it is possible to display a video that is more suitable for the operator than in the first mode.

In the present invention, before the setting means sets the video processing function, the video to be displayed is a predetermined video, and when the setting means finishes the video processing function setting, the video of the video signal is displayed. It is good also as a structure provided with the display control means to display.
According to this configuration, it is possible to prevent the operator from visually recognizing video disturbance that occurs when the setting is changed.

The control device according to the present invention includes a first mode in which a predetermined video processing function among a plurality of video processing functions is set according to a type of a video signal to be displayed, and the plurality of video processing functions. Among the above video processing functions more than the first mode, in the case where the selection means for selecting one of the second modes for setting corresponding to the type of video signal to be displayed and the type of video signal to be displayed have changed, When the first mode is selected, the predetermined video processing function is set. When the second mode is selected, the first mode is selected from the plurality of video processing functions. Setting means for setting a number of video processing functions.
According to the present invention, when the first mode is selected, the number to be set for a plurality of video processing functions is reduced, so that the time required for processing to be performed when the type of video signal changes is shortened. Can do.

  The present invention can be conceptualized as a control method in addition to a control device.

1 is a diagram illustrating a hardware configuration of a projector 1 according to an embodiment of the present invention. The block diagram which showed the structure of the image | video process part. FIG. 2 is a block diagram illustrating a configuration of functions realized in the projector. The flowchart which showed the flow of the process which the control part 10 performs. The flowchart which showed the flow of the process which the control part 10 performs.

[Embodiment]
(Configuration of the embodiment)
FIG. 1 is a diagram showing a hardware configuration of a projector 1 according to an embodiment of the present invention. The projector 1 is a front projection type liquid crystal projector, and is an example of a display device according to the present invention. The projector 1 projects the video represented by the input video signal onto the screen.

  The operation unit 11 includes a plurality of buttons for operating the projector 1. The control unit 10 controls each unit in accordance with the operated button, thereby adjusting the image projected on the screen and setting various functions of the projector 1.

  The OSD (On Screen Display) unit 15 is controlled by the control unit 10 and is used to set menu images for setting various functions of the projector 1, menu images for adjusting the image quality of the video displayed by the projector 1, and the projector 1. An image of a character string indicating the state is generated, and an OSD signal representing the generated image is supplied to the video processing unit 13.

  The video processing unit 13 acquires a video signal supplied from an external device and an OSD signal supplied from the OSD unit 15. The video processing unit 13 has a plurality of video processing functions, and performs various processes on the supplied video signal. In addition, the video processing unit 13 supplies the video signal obtained by superimposing the OSD signal on the video signal to the display unit 14.

  FIG. 2 is a diagram illustrating the configuration of the video processing unit 13. The selection unit 131 has a plurality of terminals to which a video signal is input. For example, a HDMI (registered trademark) (High-Definition Multimedia Interface) terminal, a component terminal to which a component signal is input, and a composite signal are input. It has a composite terminal to be input, a VGA terminal to which a video signal output from a computer device is input, and the like. The selection unit 131 is controlled by the control unit 10 and connects any one of the plurality of terminals to the specifying unit 132. The video signal input to the terminal connected to the specifying unit 132 is supplied to the specifying unit 132.

  The specifying unit 132 specifies the presence / absence of a video signal and the type of the supplied video signal. When the video signal is not supplied from the selection unit 131, the specifying unit 132 notifies the control unit 10 that there is no video signal. When the video signal is supplied from the selection unit 131, the specifying unit 132 indicates that there is a video signal. Notify the control unit 10. The specifying unit 132 specifies the resolution of the video represented by the video signal and the size of the video represented by the video signal (4: 3, 16: 9, squeeze, letterbox), and notifies the control unit 10 of the specified result. . The specifying unit 132 supplies the video signal supplied from the selection unit 131 to the first adjustment unit 133.

  The first adjustment unit 133 has a function of adjusting the brightness and contrast of the image displayed by the projector 1. The first adjustment unit 133 is controlled by the control unit 10, performs brightness and contrast adjustment processing on the video signal supplied from the specifying unit 132, and the image signal after the adjustment processing is performed on the video effect unit 134. To supply. Regarding the adjustment of brightness and contrast, when data indicating the degree of adjustment of brightness and contrast is sent from the control unit 10 to the video processing unit 13, the first adjustment unit 133 responds to the data sent from the control unit 10. Adjustment processing is performed on the video signal.

  The video effect unit 134 has a super-resolution function for increasing the resolution of the supplied video signal, a frame interpolation function for generating an intermediate frame from previous and subsequent frames in the video signal, and a 2D-3D conversion function for converting 2D video into 3D video Etc. Regarding the on / off control of each function, when data for on / off control is sent from the control unit 10 to the video processing unit 13, the video effect unit 134 responds to the data sent from the control unit 10. Then, image processing is performed on the video signal. Note that the video effect unit 134 performs image processing corresponding to a function that is on on the supplied video signal, and supplies the image signal subjected to the image processing to the filter unit 135. When all the functions of the video effect unit 134 are turned off, the supplied video signal is supplied to the filter unit 135 without being subjected to image processing.

  The filter unit 135 has a function of adjusting the contour (sharpness) in the video represented by the video signal. The filter unit 135 is controlled by the control unit 10, performs processing for adjusting the contour in the video on the video signal, and supplies the processed video signal to the second adjustment unit 136. As for contour adjustment, when data indicating the degree of contour adjustment is sent from the control unit 10 to the video processing unit 13, the filter unit 135 changes the contour in the video according to the data sent from the control unit 10. The adjustment process is performed on the video signal.

The second adjustment unit 136 has a function of adjusting the aspect ratio of the video to be displayed and a function of correcting the keystone of the video to be displayed. The second adjustment unit 136 has a function of superimposing the OSD signal supplied from the OSD unit 15 on the video signal supplied from the filter unit 135. The second adjustment unit 136 is controlled by the control unit 10, performs processing for adjusting the aspect ratio and trapezoid correction processing on the video signal, and supplies the video signal subjected to various types of processing to the third adjustment unit 137. . Note that there are three types of video aspect ratios, for example, normal, full, and zoom. When the aspect ratio is normal, the projector 1 displays the image as it is without changing the aspect ratio of the video indicated by the video signal. To do. When the aspect ratio is full, the aspect ratio of the video indicated by the video signal is 16: 9. When the aspect ratio is zoomed, the projector 1 enlarges the video indicated by the video signal, and The aspect ratio is 16: 9.
Regarding the adjustment ratio of the aspect ratio and the keystone correction, when data indicating the adjustment amount is sent from the control unit 10 to the video processing unit 13, the second adjustment unit 136 determines the aspect ratio according to the data sent from the control unit 10. Adjustment and keystone correction.

  The third adjustment unit 137 has a function of adjusting color density, hue, color temperature, and the like. The third adjustment unit 137 is controlled by the control unit 10 and performs adjustment processing such as color density, hue, and color temperature on the video signal supplied from the second adjustment unit 136, and the adjustment processing is performed. The video signal is supplied to the display unit 14. As for the adjustment amount of the color density, hue, and color temperature, when data indicating the adjustment amount is sent from the control unit 10 to the video processing unit 13, the third adjustment unit 137 adds the data sent from the control unit 10 to the data. Correspondingly, the color density, hue, color temperature, etc. are adjusted.

  Returning to FIG. 1, the display unit 14 includes a light source 141, a light valve 142, a drive circuit 144, and a projection lens 143. The light source is a lamp that emits light, and the light emitted from the light source is split into red, green, and blue light by a plurality of dichroic mirrors and mirrors (not shown), and the split red, green, and blue light is a light. Guided to valve 142.

  The drive circuit 144 acquires the video signal supplied from the video processing unit 13. The video signal supplied to the drive circuit 144 includes gradation data representing the gradation of the red component in the projected image, gradation data representing the gradation of the green component in the projected image, and the blue component in the projected image. Gradation data representing the gradations. The drive circuit 144 extracts gradation data of each color of red, green, and blue, and drives the light valve 142 based on the extracted gradation data of each color.

  The light valve 142 includes a liquid crystal light valve that receives red light, a liquid crystal light valve that receives green light, and a liquid crystal light valve that receives blue light. The liquid crystal light valve is a transmissive liquid crystal panel and includes pixels arranged in a matrix with a plurality of rows and a plurality of columns. A liquid crystal light valve that receives red light is driven based on red gradation data, and a liquid crystal light valve that receives green light is driven based on green gradation data, and a liquid crystal light that receives blue light. The valve is driven based on the blue gradation data. In each liquid crystal light valve, each pixel is controlled by the drive circuit 144, and the transmittance of the pixel changes. By controlling the transmittance of the pixels, the light of each color transmitted through the liquid crystal light valve becomes an image corresponding to each gradation data. The red, green, and blue light images transmitted through the liquid crystal light valve are combined by a dichroic prism (not shown) and are incident on the projection lens 143. The projection lens 143 is a lens that enlarges an incident image, and enlarges the incident image and projects it on a screen.

  The control unit 10 is a microcomputer including a central processing unit (CPU), a read only memory (ROM), and a random access memory (RAM), and is an example of a control device according to the present invention. When the CPU executes a program stored in the ROM, in the projector 1, the control unit 10 controls each unit, and realizes a function of projecting an image represented by a video signal input from an external device onto the screen and various functions. .

  For example, in the projector 1, the function of the video processing unit 13 is realized by using an OSD menu to set on / off and an adjustment amount. Data indicating on / off and adjustment amount set using the menu for various functions is stored in the storage unit 12 having a nonvolatile memory. The control unit 10 controls the video processing unit 13 based on the data stored in the storage unit 12.

  Further, the projector 1 realizes a function of displaying an image with an image quality corresponding to the color mode designated by the operator. Examples of the color mode include “dynamic”, “natural”, “stage”, “cinema”, and the like. “Dynamic” is a mode suitable for use in a bright room, and “Natural” is a mode suitable for use in a dark room. “Stage” is a mode suitable for viewing an image of a stage or the like in a dark room, and “Cinema” is a mode suitable for viewing an image of a movie or a concert in a dark room. In the projector 1, adjustment amounts such as color tone, brightness, outline, color density, contrast, and color temperature are set by the operator for each of a plurality of color modes, and data indicating the set adjustment amounts is stored. Stored in the unit 12. The control unit 10 acquires data associated with the color mode specified by the operator from the storage unit 12, and controls the video processing unit 13 based on the acquired data.

  Further, the projector 1 realizes a function of adjusting the image quality and aspect ratio of the video to be displayed according to the type of the video signal specified by the specifying unit 132. The trapezoid allows the operator to set the aspect ratio, color mode, super-resolution function on / off, frame interpolation function on / off, and 2D-3D conversion function on / off for each video signal type using the OSD menu. When an operation to set the correction amount is performed, the aspect ratio and color mode for displaying the video signal, the super-resolution function on / off, the frame interpolation function on / off, for each video signal type, On / off of the 2D-3D conversion function and the correction amount of the keystone correction are stored in the storage unit 12 in association with each other. The control unit 10 acquires data stored in association with the type of video signal specified by the specifying unit 132 from the storage unit 12, and controls the video processing unit 13 based on the acquired data.

  In the projector 1, an image quality priority mode (second mode) that prioritizes image quality when changing the on / off of the aspect ratio, image quality, keystone correction, and various functions according to the type of the specified video signal, A speed priority mode (first mode) in which the time until video is displayed is shorter than the image quality priority mode is realized. In the image quality priority mode, when the type of the video signal changes, the control unit 10 controls the first adjustment unit 133, the video effect unit 134, the filter unit 135, the second adjustment unit 136, and the third adjustment unit 137 according to the type of the video signal. This is the mode to control. When the image quality priority mode is designated by the operation of the operator, the control unit 10 changes the brightness, contrast, super-resolution function, frame interpolation function, 2D-3D conversion function, contour, Control aspect ratio, keystone correction, color saturation, hue, and color temperature. On the other hand, the speed priority mode is a mode in which the control unit 10 controls the second adjustment unit 136 according to the type of the video signal when the type of the video signal changes. When the speed priority mode is designated by the operation of the operator, the control unit 10 controls the aspect ratio and the keystone correction when the type of the video signal changes.

  Comparing the image quality priority mode and the speed priority mode, the number of data sent from the control unit 10 to the video processing unit 13 when controlling the video processing unit 13 is different, and the number of data sent to the video processing unit 13 is The priority mode is higher than the speed priority mode. In this embodiment, the image quality priority mode and the speed priority mode are switched alternately between the image quality priority mode and the speed priority mode each time a button provided on the operation unit 11 is pressed. Switching may be performed.

FIG. 3 is a block diagram showing a configuration of functions realized in the present embodiment.
The selection unit 101 is an example of a selection unit that selects one of the image quality priority mode and the speed priority mode. The selection unit 101 selects one of the image quality priority mode and the speed priority mode according to the operation performed on the operation unit 11.
The setting unit 102 is an example of a setting unit that sets various video processing functions included in the video processing unit 13. The setting unit 102 controls the video processing unit 13 in accordance with the mode selected by the selection unit 101 and the type of video signal specified by the video processing unit 13, and adjusts the aspect ratio, trapezoidal correction, and image quality adjustment. For various functions such as these, settings are made according to the type of video signal to be displayed.
The display control unit 103 is an example of a display control unit that controls the display unit 14. The display control unit 103 controls the display unit 14 to switch between a black image and a video signal image for display.

(Operation example of embodiment)
4 and 5 are flowcharts showing the flow of processing performed by the control unit 10. Hereinafter, an operation example of this embodiment will be described with reference to FIGS. In the following description, when a video signal having an aspect ratio of 4: 3 is supplied to the specifying unit 132, an image signal having an aspect ratio of normal and an aspect ratio of letterbox is supplied to the specifying unit 132. If it is set, the operation will be described assuming that the aspect ratio is set to zoom. In the following description, when a video signal having an aspect ratio of 4: 3 is supplied to the specifying unit 132, the color mode is set to dynamic and a video signal having an aspect ratio of letterbox is supplied to the specifying unit 132. If the color mode is set, the operation will be described assuming that the color mode is set to cinema.

  First, the operation when the type of the video signal supplied to the specifying unit 132 changes in the state where the image quality priority mode is selected will be described. When a video signal of 4: 3 video is supplied to the specifying unit 132, the control unit 10 controls the video processing unit 13 so that the aspect ratio of the displayed video is set to normal. The mode is dynamic. In this state, when the video signal supplied to the specifying unit 132 changes and the video signal of the letterbox video is supplied to the specifying unit 132, the specifying unit 132 determines that the type of the video signal is letterbox. Identify.

  The control unit 10 (setting unit 102) specifies the type of the video signal supplied to the specifying unit 132 (Step SA1). Specifically, the control unit 10 inquires the video processing unit 13 about the type of video signal. The video processing unit 13 notifies the control unit 10 of the type of the video signal specified by the specifying unit 132 in response to an inquiry from the control unit 10. The control unit 10 specifies the type of the video signal supplied to the specifying unit 132 based on this notification.

  When the type of the video signal specified before making an inquiry to the video processing unit 13 is the same as the type of the video signal specified after making an inquiry to the video processing unit 13 (NO in step SA2). Then, it is determined that the type of the video signal has not changed, and the process flow returns to step SA1. On the other hand, the control unit 10 here differs from the type of the video signal specified before making an inquiry to the video processing unit 13 and the type of the video signal specified after making an inquiry to the video processing unit 13 (step SA2). YES), it is determined whether the speed priority mode is designated.

When the image quality priority mode is designated by the operator's operation (NO in step SA3), the control unit 10 (setting unit 102) adjusts the image quality, adjusts the aspect ratio according to the type of the specified video signal, The image function is turned on / off, the frame interpolation function is turned on / off, the 2D-3D conversion function is turned on / off, and the keystone correction data is acquired (step SA5).
Specifically, the control unit 10 sets the aspect ratio and color mode, the super-resolution function on / off setting, and the frame interpolation function on / off setting stored in association with the specified video signal type. The 2D-3D conversion function on / off setting and trapezoidal correction amount are acquired from the storage unit 12. Here, when the video of the video signal is letterbox, the read aspect ratio is “zoom”, and the read color mode is “cinema”. The control unit 10 acquires data such as hue, brightness, contour, color density, contrast, and color temperature stored in association with the color mode “cinema” from the storage unit 12.

  Next, the control part 10 (display control part 103) controls the display part 14 so that the image | video to display becomes black (step SA6). In the display unit 14, the drive circuit 144 controls the light valve 142 so that the light from the light source 141 does not reach the projection lens 143. Here, since a black video is displayed regardless of the content of the video signal, when the process of changing the aspect ratio or the image quality of the video is performed after step SA6, the change progresses depending on the viewer of the video. Will not be visible.

  When acquiring data from the storage unit 12, the control unit 10 (setting unit 102) controls the video processing unit 13 based on the acquired data (step SA7). Here, step SA7 is an example of a setting step for setting the functions of the video processing unit 13. The control unit 10 sends the data acquired from the storage unit 12 to the video processing unit 13. In the video processing unit 13, the first adjustment unit 133 performs processing for adjusting the brightness and contrast of the video according to the data sent from the control unit 10 to the video signal, and the video effect unit 134 has a super-resolution function. As for the frame interpolation function and 2D-3D conversion function, the corresponding image processing is performed on the video signal for the function to which the data to be turned on is sent. In addition, the filter unit 135 performs processing for adjusting the contour of the video according to the data sent from the control unit 10 to the video signal, and the second adjustment unit 136 takes the video according to the data sent from the control unit 10. The video signal is subjected to adjustment of the aspect ratio and keystone correction. Further, the third adjustment unit 137 performs processing for adjusting the color density, hue, and color temperature on the video signal in accordance with the data sent from the control unit 10.

  When the process of step SA7 ends, the control unit 10 (display control unit 103) controls the display unit 14 so that an image corresponding to the video signal supplied from the third adjustment unit 137 is displayed (step SA8). . In the display unit 14, the drive circuit 144 controls the light valve 142 based on the video signal supplied from the third adjustment unit 137. Since the video of the video signal is projected after the change of the aspect ratio and the image quality of the video to be displayed, the progress of the change of the aspect ratio and the image quality is not visually recognized by the video viewer.

  As described above, when the image quality priority mode is designated by the operator and the type of the video signal is changed, the first adjustment unit 133, the video effect unit 134, the filter unit 135, the second adjustment unit, and the third adjustment unit 137 are used. Is controlled, and an image with an aspect ratio and image quality corresponding to the type of the video signal supplied to the specifying unit 132 can be displayed.

  Next, when the operator operates the button for switching between the image quality priority mode and the speed priority mode on the operation unit 11 in the image quality priority mode (NO in step SB1), the control unit 10 (selection unit 101) The mode is switched to the speed priority mode (step SB2). That is, step SB2 is an example of a selection step for selecting either the image quality priority mode or the speed priority mode. After switching from the image quality priority mode to the speed priority mode, when the type of the video signal supplied to the selection unit 131 changes from the letterbox and a video signal with an aspect ratio of 4: 3 is supplied, this video signal Is supplied to the specifying unit 132. When the 4: 3 video signal is supplied, the specifying unit 132 specifies that the video signal type is 4: 3.

  The control unit 10 (setting unit 102) specifies the type of the video signal supplied to the specifying unit 132 (Step SA1). Here, since the type of the video signal specified before making an inquiry to the video processing unit 13 is different from the type of the video signal specified after making an inquiry to the video processing unit 13 (YES in step SA2). Determine whether the speed priority mode is specified. When the speed priority mode is designated by the operation of the operator (YES in step SA3), the control unit 10 (setting unit 102) performs data relating to aspect ratio adjustment and keystone correction according to the type of the specified video signal. Is acquired (step SA4). Specifically, the control unit 10 acquires from the storage unit 12 the aspect ratio and the keystone correction amount stored in association with the specified video signal type. Here, when the aspect ratio of the video of the video signal is 4: 3, the read aspect ratio is “normal”. In the speed priority mode, when the video signal type changes, the control unit 10 adjusts the aspect ratio and corrects the keystone and does not change the image quality. ON / OFF data of the resolution function, the frame interpolation function, and the 2D-3D conversion function is not acquired from the storage unit 12.

  Next, the control part 10 (display control part 103) controls the display part 14 so that the image | video to display becomes black (step SA6). Here, since a black video is displayed regardless of the content of the video signal, if the process of changing the aspect ratio of the video or the keystone correction is performed after step SA6, the process of the change is the viewing of the video. It will not be visually recognized by a person.

  When acquiring data from the storage unit 12, the control unit 10 (setting unit 102) controls the video processing unit 13 based on the acquired data (step SA7). Here, step SA7 is an example of a setting step for setting the functions of the video processing unit 13. The control unit 10 sends the data acquired from the storage unit 12 to the video processing unit 13. In the speed priority mode, the control unit 10 does not perform any processing other than the aspect ratio adjustment and the keystone correction. Therefore, the brightness, contrast, super-resolution function, frame interpolation function, and 2D-3D conversion function are used here. The data such as the contour, the color density, the color shade, and the color temperature are not sent to the video processing unit 13.

  In the video processing unit 13, the second adjustment unit 136 performs video aspect ratio adjustment and trapezoidal correction processing on the video signal according to the data sent from the control unit 10. The video processing unit 13 does not send data such as brightness, contrast, super-resolution function, frame interpolation function, 2D-3D conversion function, contour, color density, hue, and color temperature. Even if the video signal changes, the image quality does not change, and the color mode remains “cinema”.

  When the process of step SA7 ends, the control unit 10 (display control unit 103) controls the display unit 14 so that an image corresponding to the video signal supplied from the third adjustment unit 137 is displayed (step SA8). . In the display unit 14, the drive circuit 144 controls the light valve 142 based on the video signal supplied from the third adjustment unit 137. As a result, the video is projected after the adjustment of the aspect ratio of the video to be displayed and the keystone correction are completed, so that the change in the aspect ratio and the keystone correction is not visually recognized by the viewer of the video.

  As described above, when the speed priority mode is designated by the operator, even if the type of the video signal changes, the number of data acquired from the storage unit 12 is small, and the first adjustment unit 133, the video effect unit 134, the filter Since the unit 135 and the third adjustment unit 137 are not controlled, the time required from the start of step SA6 to the end of step SA8 is shorter than in the image quality priority mode, and the time until the video is displayed is shortened.

  Next, when the operator operates the button for switching between the image quality priority mode and the speed priority mode in the operation unit 11 in the speed priority mode (YES in step SB1), the control unit 10 (selection unit 101) The mode is switched to the image quality priority mode (step SB3). That is, step SB3 is an example of a selection step for selecting either the speed priority mode or the image quality priority mode. When the control unit 10 (setting unit 102) changes from the speed priority mode to the image quality priority mode, the image quality adjustment, the aspect ratio adjustment, and the on / off of the super-resolution function are performed according to the type of the specified video signal. Setting, frame interpolation function on / off setting, 2D-3D conversion function on / off setting, and keystone correction data acquisition are performed (step SB4). Specifically, the control unit 10 sets the aspect ratio and color mode, the super-resolution function on / off setting, and the frame interpolation function on / off setting stored in association with the specified video signal type. The 2D-3D conversion function on / off setting and trapezoidal correction amount are acquired from the storage unit 12. Here, when the video of the video signal is 4: 3, the read aspect ratio is “normal” and the read color mode is “dynamic”. The control unit 10 acquires, from the storage unit 12, data such as hue, brightness, contour, color density, contrast, and color temperature stored in association with “dynamic” of the color mode.

  Next, the control part 10 (display control part 103) controls the display part 14 so that the image | video to display becomes black (step SB5). In the display unit 14, the drive circuit 144 controls the light valve 142 so that the light from the light source 141 does not reach the projection lens 143. Here, since a black video is displayed regardless of the content of the video signal, when the process of changing the aspect ratio or the image quality of the video is performed after step SB5, the change progresses depending on the viewer of the video. Will not be visible.

  When acquiring the data from the storage unit 12, the control unit 10 (setting unit 102) controls the video processing unit 13 based on the acquired data (step SB6). Here, the control unit 10 sends the data acquired from the storage unit 12 to the video processing unit 13. In the video processing unit 13, the first adjustment unit 133 performs processing for adjusting the brightness and contrast of the video according to the data sent from the control unit 10 to the video signal, and the video effect unit 134 has a super-resolution function. As for the frame interpolation function and 2D-3D conversion function, the corresponding image processing is performed on the video signal for the function to which the data to be turned on is sent. In addition, the filter unit 135 performs processing for adjusting the contour of the video according to the data sent from the control unit 10 to the video signal, and the second adjustment unit 136 takes the video according to the data sent from the control unit 10. The video signal is subjected to adjustment of the aspect ratio and keystone correction. Further, the third adjustment unit 137 performs processing for adjusting the color density, hue, and color temperature on the video signal in accordance with the data sent from the control unit 10. Here, the image having the image quality of the cinema when in the speed priority mode becomes a dynamic image quality by switching to the image quality priority mode.

  When the process of step SB6 ends, the control unit 10 (display control unit 103) controls the display unit 14 so that an image corresponding to the video signal supplied from the third adjustment unit 137 is displayed (step SB7). . In the display unit 14, the drive circuit 144 controls the light valve 142 based on the video signal supplied from the third adjustment unit 137. Since the video of the video signal is projected after the change of the aspect ratio and the image quality of the video to be displayed, the progress of the change of the aspect ratio and the image quality is not visually recognized by the video viewer.

[Modification]
As mentioned above, although embodiment of this invention was described, this invention is not limited to embodiment mentioned above, It can implement with another various form. For example, the present invention may be implemented by modifying the above-described embodiment as follows. In addition, you may combine each of embodiment mentioned above and the following modifications.

  In the embodiment described above, a front projection type projector has been described as an example of a display device, but a rear projection type projector may be used. Further, in the projector 1, the light valve is not limited to one using liquid crystal, and may be configured to use a digital mirror device, for example. The display device according to the present invention is not limited to the projector 1 as long as it is a device that displays an image, and may be a direct-view display device. The direct-view display device may be a liquid crystal display device, a display device using a CRT (Cathode Ray Tube), a plasma display device, an organic EL display device, or the like.

  In the embodiment described above, the process of making the video black (step SA6, step SB5) is executed after data is acquired from the storage unit 12 (after step SA4, after step SA5, after step SB4). However, before the data is acquired from the storage unit 12, the process of making the video black may be executed.

In the above-described embodiment, in the speed priority mode, when the type of the video signal is changed, the aspect ratio is adjusted and the keystone is corrected. However, the present invention is not limited to this configuration. For example, in a direct-view display device, only the aspect ratio adjustment may be performed when the type of video signal changes in the speed priority mode.
In the above-described embodiment, when the video signal type changes in the speed priority mode, the super-resolution function, the frame interpolation function, the 2D-3D conversion function, and the image quality are not set. The predetermined items of each function and image quality may be set even in the speed priority mode.
In short, items to be set when the video signal type changes in the speed priority mode are not limited to the items in the above-described embodiment, and may be determined according to the type of the display device.

In the above-described embodiment, in the speed priority mode, the menu is selected for any of brightness, contrast, color density, hue, color temperature, super-resolution function, frame interpolation function, and 2D-3D conversion function. When the setting is changed by operating the or button, the speed priority mode may be changed to the image quality priority mode, and the processing from step SB4 to step SB7 may be performed. In the speed priority mode, you can operate the menu and buttons for brightness, contrast, color depth, hue, color temperature, super-resolution function, frame interpolation function, and 2D-3D conversion function. When the setting is changed, only the video whose setting has been changed may be changed by controlling the video processing unit 13.
In the embodiment described above, the control unit 10 is set to the speed priority mode when the power is turned on, and the brightness, contrast, color density, hue, color temperature, super-resolution function, frame interpolation function, and 2D-3D. If any of the conversion functions is changed by a menu or button operation, the speed priority mode may be changed to the image quality priority mode, and the processing from step SB4 to step SB7 may be performed.

  In the above-described embodiment, the control unit 10 uses the control unit 10 to obtain predetermined default data for the brightness, contrast, color density, hue, and color temperature from the control unit 10 when switching to the speed priority mode. You may make it send to the process part 13. FIG. In the above-described embodiment, the super-resolution function, the frame interpolation function, and the 2D-3D conversion function may be set to off when the speed priority mode is switched.

  In the above-described embodiment, when the image quality priority mode is set, the control unit 10 first sends the data relating to the aspect ratio and the keystone correction to the video processing unit 13 in step SA7 and step SB6, and sends other data later. You may make it send. In this configuration, when the data related to the aspect ratio and the keystone correction is sent, the processing in step SA8 and step SB7 may be performed before sending other data to the video processing unit 13.

  In the above-described embodiment, the video effect unit 134 has, for example, a resolution conversion function that converts a video having a resolution lower than 4K to 4K resolution, and the control unit 10 has a resolution conversion function in the image quality priority mode. On / off setting may be performed.

  In the above-described embodiment, when the type of the video signal changes in the speed priority mode, the control unit 10 is configured to perform aspect ratio adjustment and keystone correction, but is not limited to this configuration. . For example, the operator of the projector 1 may be able to set items to be controlled in the speed priority mode by using the OSD menu.

  In the embodiment described above, in step SA6 and step SB6, the display unit 14 is controlled so as to display a full black image. However, the display unit 14 displays a full blue or gray image. May be controlled.

  In the embodiment described above, as an example of the case where the type of the video signal changes, the video signal video aspect ratio changes in a state where the terminal connected to the specifying unit 132 does not change in the selection unit 131 (for example, However, the case where the type of the video signal is changed is not limited to this example. For example, in the selection unit 131, as in the case where the terminal connected to the specifying unit 132 is switched from the composite terminal supplied with the video signal to the VGA terminal supplied with the video signal from the computer device, the selection unit 131 is switched. The case where the terminal to be selected is switched (when the input source is switched) is also included when the type of the video signal changes because the type of the video signal changes. In short, the case where the terminal selected by the selection unit 131 is switched can be included when the type of the video signal is changed. In addition, for example, when the external device connected to the composite terminal is changed in the state where the composite terminal is connected to the specifying unit 132, or when the content to be played back on the external device connected to the composite terminal is changed, This is included when the type of the video signal changes because the input source is switched and the type of the video signal supplied to the specifying unit 132 can change. Even when the input source is switched in this way, in the speed priority mode, the time required from the start of step SA6 to the end of step SA8 is shorter than in the image quality priority mode, as in the above-described embodiment, and the video is displayed. The time until display is shortened.

DESCRIPTION OF SYMBOLS 1 ... Projector, 10 ... Control part, 11 ... Operation part, 12 ... Memory | storage part, 13 ... Image processing part, 14 ... Display part, 15 ... OSD part, 101 ... Selection part, 102 ... Setting part, 103 ... Display control part 131 ... Selection unit 132 ... Specification unit 133 ... First adjustment unit 134 ... Video effect unit 135 ... Filter unit 136 ... Second adjustment unit 137 ... Third adjustment unit 141 ... Light source 142 ... Light Valve, 143 ... projection lens, 144 ... drive circuit

Claims (8)

Multiple video processing functions,
Of the plurality of video processing functions, a predetermined video processing function is set in accordance with the type of video signal to be displayed, and more videos than the first mode among the plurality of video processing functions. A selection means for selecting one of the second modes for performing setting corresponding to the type of video signal to be displayed with respect to the processing function;
When the type of video signal to be displayed changes, when the first mode is selected, the predetermined video processing function is set. When the second mode is selected, the first mode is selected. Setting means for setting more video processing functions than the first mode among a plurality of video processing functions;
A display device comprising: The display device according to claim 1, wherein the setting unit sets at least an aspect ratio of a video to be displayed when the first mode is selected. When the power of the device is turned on, the selection unit selects the first mode, and when the operation of selecting the second mode is performed, the selection unit selects the second mode, The display device according to claim 1, wherein the setting unit performs setting for more video processing functions than in the first mode. 4. The video processing function set by the setting unit when the first mode is selected is a video processing function designated by an operator of the own apparatus. 5. Display device. When the setting unit is not set in the first mode and the setting of the video processing function set in the second mode is changed by the operator of the own apparatus, the selection unit selects the second mode. The display device according to any one of claims 1 to 4, wherein the setting unit performs setting for a larger number of video processing functions than in the first mode. Before the setting means sets the video processing function, the video to be displayed is a predetermined video, and when the setting means finishes the video processing function setting, a display control means for displaying the video of the video signal is provided. The display apparatus as described in any one of Claims 1 thru | or 5 provided. A first mode for setting a predetermined video processing function among a plurality of video processing functions corresponding to the type of video signal to be displayed, and more video processing than the first mode among the plurality of video processing functions A selection means for selecting one of the second modes for performing settings corresponding to the type of video signal to be displayed;
When the type of video signal to be displayed changes, when the first mode is selected, the predetermined video processing function is set. When the second mode is selected, the first mode is selected. Setting means for setting more video processing functions than the first mode among a plurality of video processing functions;
A control device comprising: A first mode for setting a predetermined video processing function among a plurality of video processing functions corresponding to the type of video signal to be displayed, and more video processing than the first mode among the plurality of video processing functions A selection step of selecting any one of the second modes for performing settings corresponding to the type of video signal to be displayed;
When the type of video signal to be displayed changes, when the first mode is selected, the predetermined video processing function is set. When the second mode is selected, the first mode is selected. A setting step for setting a larger number of video processing functions than the first mode among a plurality of video processing functions;
A control method comprising:

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